In the field of high-temperature heat treatment,traditional on-site calibration tasks usually rely on complex manual operations and time-consuming manual observations.This method is not only in-efficient but also prone to data inaccuracies and inconsistencies.In this context,this research is dedicated to developing an innovative automated online measurement system.The aim is to enhance the responsiveness and long-term stability of temperature uniformity and system precision tests while reducing the costs of the calibration process and improving overall efficiency.The design and implementation of this system are intended to bring technological innovations to the heat treatment industry to address long-standing issues with measurement and calibration.The system development in this study is based on the.NET Framework and employs both C#and VBA programming languages flexibly.The research utilizes cutting-edge modular design principles to create a comprehensive functional system that includes data reading,equipment information matching,result calculation,and data analysis display.Furthermore,the system's user interface design,leveraging graphical elements,significantly simplifies the operation process,allowing users to calibrate intuitively and efficiently.
heat treatmenton-site calibrationmeasurement system
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